module Language.Haskell.TH.Desugar.Reify (
reifyWithLocals_maybe, reifyWithLocals, reifyWithWarning, reifyInDecs,
getDataD, dataConNameToCon, dataConNameToDataName,
DsMonad(..), DsM, withLocalDeclarations
) where
import Control.Monad.Reader
import Control.Monad.State
import Control.Monad.Writer
import Control.Monad.RWS
import Data.List
import Data.Maybe
#if __GLASGOW_HASKELL__ < 709
import Control.Applicative
#endif
import qualified Data.Set as S
import Language.Haskell.TH.Instances ()
import Language.Haskell.TH.Syntax hiding ( lift )
import Language.Haskell.TH.Desugar.Util
reifyWithLocals_maybe :: DsMonad q => Name -> q (Maybe Info)
reifyWithLocals_maybe name = qRecover
(return . reifyInDecs name =<< localDeclarations)
(Just `fmap` qReify name)
reifyWithLocals :: DsMonad q => Name -> q Info
reifyWithLocals name = do
m_info <- reifyWithLocals_maybe name
case m_info of
Nothing -> reifyFail name
Just i -> return i
reifyWithWarning :: Quasi q => Name -> q Info
reifyWithWarning name = qRecover (reifyFail name) (qReify name)
reifyFail :: Monad m => Name -> m a
reifyFail name =
fail $ "Looking up " ++ (show name) ++ " in the list of available " ++
"declarations failed.\nThis lookup fails if the declaration " ++
"referenced was made in the same Template\nHaskell splice as the use " ++
"of the declaration. If this is the case, put\nthe reference to " ++
"the declaration in a new splice."
getDataD :: Quasi q
=> String
-> Name
-> q ([TyVarBndr], [Con])
getDataD err name = do
info <- reifyWithWarning name
dec <- case info of
TyConI dec -> return dec
_ -> badDeclaration
case dec of
DataD _cxt _name tvbs cons _derivings -> return (tvbs, cons)
NewtypeD _cxt _name tvbs con _derivings -> return (tvbs, [con])
_ -> badDeclaration
where badDeclaration =
fail $ "The name (" ++ (show name) ++ ") refers to something " ++
"other than a datatype. " ++ err
dataConNameToDataName :: Quasi q => Name -> q Name
dataConNameToDataName con_name = do
info <- reifyWithWarning con_name
case info of
DataConI _name _type parent_name _fixity -> return parent_name
_ -> fail $ "The name " ++ show con_name ++ " does not appear to be " ++
"a data constructor."
dataConNameToCon :: Quasi q => Name -> q Con
dataConNameToCon con_name = do
type_name <- dataConNameToDataName con_name
(_, cons) <- getDataD "This seems to be an error in GHC." type_name
let m_con = find ((con_name ==) . get_con_name) cons
case m_con of
Just con -> return con
Nothing -> impossible "Datatype does not contain one of its own constructors."
where
get_con_name (NormalC name _) = name
get_con_name (RecC name _) = name
get_con_name (InfixC _ name _) = name
get_con_name (ForallC _ _ con) = get_con_name con
class Quasi m => DsMonad m where
localDeclarations :: m [Dec]
instance DsMonad Q where
localDeclarations = return []
instance DsMonad IO where
localDeclarations = return []
newtype DsM q a = DsM (ReaderT [Dec] q a)
deriving (Functor, Applicative, Monad, MonadTrans, Quasi)
instance Quasi q => DsMonad (DsM q) where
localDeclarations = DsM ask
instance DsMonad m => DsMonad (ReaderT r m) where
localDeclarations = lift localDeclarations
instance DsMonad m => DsMonad (StateT s m) where
localDeclarations = lift localDeclarations
instance (DsMonad m, Monoid w) => DsMonad (WriterT w m) where
localDeclarations = lift localDeclarations
instance (DsMonad m, Monoid w) => DsMonad (RWST r w s m) where
localDeclarations = lift localDeclarations
withLocalDeclarations :: DsMonad q => [Dec] -> DsM q a -> q a
withLocalDeclarations new_decs (DsM x) = do
orig_decs <- localDeclarations
runReaderT x (orig_decs ++ new_decs)
reifyInDecs :: Name -> [Dec] -> Maybe Info
reifyInDecs n decs = firstMatch (reifyInDec n decs) decs
reifyInDec :: Name -> [Dec] -> Dec -> Maybe Info
reifyInDec n decs (FunD n' _) | n `nameMatches` n' = Just $ mkVarI n decs
reifyInDec n decs (ValD pat _ _)
| any (nameMatches n) (S.elems (extractBoundNamesPat pat)) = Just $ mkVarI n decs
reifyInDec n _ dec@(DataD _ n' _ _ _) | n `nameMatches` n' = Just $ TyConI dec
reifyInDec n _ dec@(NewtypeD _ n' _ _ _) | n `nameMatches` n' = Just $ TyConI dec
reifyInDec n _ dec@(TySynD n' _ _) | n `nameMatches` n' = Just $ TyConI dec
reifyInDec n decs dec@(ClassD _ n' _ _ _) | n `nameMatches` n'
= Just $ ClassI (stripClassDec dec) (findInstances n decs)
reifyInDec n decs (ForeignD (ImportF _ _ _ n' ty)) | n `nameMatches` n'
= Just $ mkVarITy n decs ty
reifyInDec n decs (ForeignD (ExportF _ _ n' ty)) | n `nameMatches` n'
= Just $ mkVarITy n decs ty
reifyInDec n decs dec@(FamilyD _ n' _ _) | n `nameMatches` n'
= Just $ FamilyI (handleBug8884 dec) (findInstances n decs)
#if __GLASGOW_HASKELL__ >= 707
reifyInDec n _ dec@(ClosedTypeFamilyD n' _ _ _) | n `nameMatches` n'
= Just $ FamilyI dec []
#endif
reifyInDec n decs (DataD _ ty_name tvbs cons _)
| Just info <- maybeReifyCon n decs ty_name (map tvbToType tvbs) cons
= Just info
reifyInDec n decs (NewtypeD _ ty_name tvbs con _)
| Just info <- maybeReifyCon n decs ty_name (map tvbToType tvbs) [con]
= Just info
reifyInDec n decs (ClassD _ _ _ _ sub_decs)
| Just info <- firstMatch (reifyInDec n (sub_decs ++ decs)) sub_decs
= Just info
reifyInDec n decs (ClassD _ ty_name tvbs _ sub_decs)
| Just ty <- findType n sub_decs
= Just $ ClassOpI n (addClassCxt ty_name tvbs ty)
ty_name (findFixity n $ sub_decs ++ decs)
reifyInDec n decs (InstanceD _ _ sub_decs)
| Just info <- firstMatch reify_in_instance sub_decs
= Just info
where
reify_in_instance dec@(DataInstD {}) = reifyInDec n (sub_decs ++ decs) dec
reify_in_instance dec@(NewtypeInstD {}) = reifyInDec n (sub_decs ++ decs) dec
reify_in_instance _ = Nothing
reifyInDec n decs (DataInstD _ ty_name tys cons _)
| Just info <- maybeReifyCon n decs ty_name tys cons
= Just info
reifyInDec n decs (NewtypeInstD _ ty_name tys con _)
| Just info <- maybeReifyCon n decs ty_name tys [con]
= Just info
reifyInDec _ _ _ = Nothing
maybeReifyCon :: Name -> [Dec] -> Name -> [Type] -> [Con] -> Maybe Info
maybeReifyCon n decs ty_name ty_args cons
| Just con <- findCon n cons
= Just $ DataConI n (maybeForallT tvbs [] $ con_to_type con)
ty_name fixity
| Just ty <- findRecSelector n cons
= Just $ VarI n (maybeForallT tvbs [] $ mkArrows [result_ty] ty) Nothing fixity
where
result_ty = foldl AppT (ConT ty_name) ty_args
con_to_type (NormalC _ stys) = mkArrows (map snd stys) result_ty
con_to_type (RecC _ vstys) = mkArrows (map thdOf3 vstys) result_ty
con_to_type (InfixC t1 _ t2) = mkArrows (map snd [t1, t2]) result_ty
con_to_type (ForallC bndrs cxt c) = ForallT bndrs cxt (con_to_type c)
fixity = findFixity n decs
tvbs = map PlainTV $ S.elems $ freeNamesOfTypes ty_args
maybeReifyCon _ _ _ _ _ = Nothing
mkVarI :: Name -> [Dec] -> Info
mkVarI n decs = mkVarITy n decs (fromMaybe no_type $ findType n decs)
where
no_type = error $ "No type information found in local declaration for "
++ show n
mkVarITy :: Name -> [Dec] -> Type -> Info
mkVarITy n decs ty = VarI n ty Nothing (findFixity n decs)
findFixity :: Name -> [Dec] -> Fixity
findFixity n = fromMaybe defaultFixity . firstMatch match_fixity
where
match_fixity (InfixD fixity n') | n `nameMatches` n' = Just fixity
match_fixity _ = Nothing
findType :: Name -> [Dec] -> Maybe Type
findType n = firstMatch match_type
where
match_type (SigD n' ty) | n `nameMatches` n' = Just ty
match_type _ = Nothing
findInstances :: Name -> [Dec] -> [Dec]
findInstances n = map stripInstanceDec . concatMap match_instance
where
match_instance d@(InstanceD _ ty _) | ConT n' <- ty_head ty
, n `nameMatches` n' = [d]
match_instance d@(DataInstD _ n' _ _ _) | n `nameMatches` n' = [d]
match_instance d@(NewtypeInstD _ n' _ _ _) | n `nameMatches` n' = [d]
#if __GLASGOW_HASKELL__ >= 707
match_instance d@(TySynInstD n' _) | n `nameMatches` n' = [d]
#else
match_instance d@(TySynInstD n' _ _) | n `nameMatches` n' = [d]
#endif
match_instance (InstanceD _ _ decs) = concatMap match_instance decs
match_instance _ = []
ty_head (ForallT _ _ ty) = ty_head ty
ty_head (AppT ty _) = ty_head ty
ty_head (SigT ty _) = ty_head ty
ty_head ty = ty
stripClassDec :: Dec -> Dec
stripClassDec (ClassD cxt name tvbs fds sub_decs)
= ClassD cxt name tvbs fds sub_decs'
where
sub_decs' = mapMaybe go sub_decs
go (SigD n ty) = Just $ SigD n $ addClassCxt name tvbs ty
go _ = Nothing
stripClassDec dec = dec
addClassCxt :: Name -> [TyVarBndr] -> Type -> Type
addClassCxt class_name tvbs ty = ForallT tvbs class_cxt ty
where
#if __GLASGOW_HASKELL__ < 709
class_cxt = [ClassP class_name (map tvbToType tvbs)]
#else
class_cxt = [foldl AppT (ConT class_name) (map tvbToType tvbs)]
#endif
stripInstanceDec :: Dec -> Dec
stripInstanceDec (InstanceD cxt ty _) = InstanceD cxt ty []
stripInstanceDec dec = dec
mkArrows :: [Type] -> Type -> Type
mkArrows [] res_ty = res_ty
mkArrows (t:ts) res_ty = AppT (AppT ArrowT t) $ mkArrows ts res_ty
maybeForallT :: [TyVarBndr] -> Cxt -> Type -> Type
maybeForallT tvbs cxt ty
| null tvbs && null cxt = ty
| ForallT tvbs2 cxt2 ty2 <- ty = ForallT (tvbs ++ tvbs2) (cxt ++ cxt2) ty2
| otherwise = ForallT tvbs cxt ty
findCon :: Name -> [Con] -> Maybe Con
findCon n = find match_con
where
match_con (NormalC n' _) = n `nameMatches` n'
match_con (RecC n' _) = n `nameMatches` n'
match_con (InfixC _ n' _) = n `nameMatches` n'
match_con (ForallC _ _ c) = match_con c
findRecSelector :: Name -> [Con] -> Maybe Type
findRecSelector n = firstMatch match_con
where
match_con (RecC _ vstys) = firstMatch match_rec_sel vstys
match_con (ForallC _ _ c) = match_con c
match_con _ = Nothing
match_rec_sel (n', _, ty) | n `nameMatches` n' = Just ty
match_rec_sel _ = Nothing
handleBug8884 :: Dec -> Dec
#if __GLASGOW_HASKELL__ >= 707
handleBug8884 = id
#else
handleBug8884 (FamilyD flav name tvbs m_kind)
= FamilyD flav name tvbs (Just stupid_kind)
where
kind_from_maybe = fromMaybe StarT
tvb_kind (PlainTV _) = Nothing
tvb_kind (KindedTV _ k) = Just k
result_kind = kind_from_maybe m_kind
args_kinds = map (kind_from_maybe . tvb_kind) tvbs
stupid_kind = mkArrows args_kinds result_kind
handleBug8884 dec = dec
#endif